... Objects with more mass project more gravity (according to my speculation) because the more mass of an object the greater strain on space-time causing it to bend more.
This sounds somewhat circular, as the bending of space-time is another way of looking at the gravitational field -- not something else. Matter distorts space-time; we call this distortion gravity.
I speculate the strain is caused because when time propels a sphere of lead through space-time it has more force than the force of a sphere of stryfoam of the same size because time as a constant t*mass*volume=stress on space-time (a crude and speculatory formula).
Time does not propel anything through space or space-time. There are no forces associated with movement through time. Plus, if anything, time is
not a constant.
I suppose that time becomes relative only when matter takes motion through space, because now an object has two vectors of travel one through space at a certain speed and one through time at a constant.
It is true that time is relative to motion, but note that motion itself is relative. Hence, observers moving past you will show to you their clocks moving slower than yours, and then to them your clocks moving (again) slower to theirs -- and both will be correct.
All these calculation require differential geometry, tensors, metrics, and minkowski space(which I have yet to learn) in order to do calculation of obejcts in 4 dimensions. However I suppose that time differances occurs in objects moving because instead of matter sitting still and creating a dimple in space-time it is now moving and the motion through space lessens the pull or push of time on space-time.
You seem to keep implying (I believe) this universal
time that is affecting things moving through space-time. There is no such thing -- a rather hard concept to initially grasp, but true none-the-less. Therfore there is no push or pull on time or space-time.
Gravity is a force that is bound by c so therefore when objects reach the speed of light the gravity around the object lessens because it spend less time exerting force on a particular spot in space time.
Well, first off -- matter cannot reach the speed of light. The gravitational field from matter moving rapidly, like from the matter in a rotating black hole, distorts significantly; and here I must confess ignorance, as I don't know the details. But I don't believe it lessens the field.
I also speculate that this means traveling faster than light would allow for time travel backwards if the matter goes beyond the limits of light then the matter achieves negative mass and produces anti-gravity.
Since it would take an infinite amount of energy to propel regular matter to the speed of light, getting it to go faster is rather moot.
It seems that an object MUST have negative mass in order to surpass c. Without negative mass, the possitive mass of the object will prevent it from going beyond the limit of c without a source of infinite energy to propel it. These conclusions of mine seem vagualy similar to pop-science(discovery channel). I lack creditentials, knowledge, terminology, and expierance.
You might want to look up
tachyons ... but note, they are hypothetical.
I view blackholes as being in the future as the matter they are made up of is not visable, so it should be somewhere.
Yes ... they are in our universe, as their gravitational influence is felt. But to get to them (the singularity) one must leave what we know as our space-time and go through the event horizon. From what I've read, space and time switch on the other side -- there is only one path in space you can travel, to the singularity, unlike here where there is only one path in time you can travel, to the future.
If more matter and less volume means more stress on space-time then it would be pushed through normal space to... what I suggest which is the future(but possibly the past?) because the matter is not viewable to the present but yet the effects of its gravity is still there.
Just becasue something can't be seen now doesn't mean is doesn't exist now. There are stars forming far off of which their light has yet to reach us, but they exist now (assuming the same inertial frame of reference, or close enough).
I'm going to forego your speculations as it's getting late -- perhaps someone else might want to jump in.
